Type-setting machine.



Patentgd Mar. 27, I900.

P. F. COX. TYPE SETTING MACHINE.

(Application filed Aug. 14, 1899) I5 Sheets-Sheet I.

(No Model.)

No. 646,358. 'Patented Mar. 27, I900.

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TYPE' SETTING MACHINE.

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A M a I x I TNE MORE 5 PETERS CO N'JYO I H'NO WASNXNG P. F. 60X. TYPE SETTING MACHINE.

(Application filed Aug. 14, 1899.)

Patented Mar. 27,1900.

(No Model.)

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TYPE SETTING MACHINE.

(Application filed Aug. 14, 1899.)

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No. 646,358. Patented Mar. 27, won. P. F. cox.

TYPE SETTING MACHINE.

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(Application filed Aug, 14. 1899.) (No Model.)

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. Patented Mar. 27, I900.

P. F. COX. I TYPE SETTING MACHINE.

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WYYNEZSSES No. 646,358. Patented Mar. 27, I900.

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T-YPE SETTING MACHINE.

(Application filed Aug. 14, 1899.) (No Model.) l5 Sheets-Sheet 9.

M mu I II j/vrzzvrozex P 70090 No. 646,358. Patented Mar. 27, I900. I

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No. 646,358. Patented Mar. 27, 1900.

P. F. cox.

TYPE SETTING MACHINE.

(Application filed Aug. 14, 1899.)

' l5 Sheets-Sheet I2.

(No Model.)

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I [T E55 I No. 646,358. Patentad mar. 27, I900. P. r. cox.

TYPE SETTING MACHINE.

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TYPE SETTING MACHINE.

' (Application filed Aug. 14, 1899.) (No Model.)

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"Patntad Mar. 27,1900.

15 Sheets-Sheet IS.

F. F. (20X. TYPE SETTING MACHINE. (Application Med Aug. 14, 1899.)

(Na ModeL) 1N VEN TOR B076] [700% r 7 A llqmey4 TTED STATES ATE- m mes.

PAUL ELEMMIN r COX, on MANCHESTER, CONNECTICUT, ASSIGNOR To TllE UNITYPE COMPANY, OF SAME PLACE.

TYPE-SETTINGVVMACHINE.

SPECIFICATION forming part of Letters Patent No. 646,358, dated March 27, 1900.

' Application and August 14,1899. Serial No. 727,095. (No model-J T0 (LZZ whom it mag/ concern:

Be it known that I, PAUL FLEMMING Cox, of Manchester, in the county of Hartford and State of Connecticut, have invented certain new and useful Improvements in Type-Setting Machines; and I'hereby declare that the following is a full, clear, and exact description thereof, reference being had to the accom' panying drawings, which form part of this specification. 1

This invention is an improvement in typesetting machines, and relates particularly to that class of combined type setting and distributing machines commonly known as the Thorne typesetting machine, inwhich the apparatus forcomposing type from a stationary type-reservoir is combined with apparatus for automatically distributing dead-matter into the type-reservoirchannels.

My invention embracesboth means for composing type and means for distributing the same; but the present application will be restricted to the composing mechanism, while the distributing mechanism will form the subject of a companion application.

In the present invention I employ some of the principles and apparatus which have been heretofore patented by me and embodied particularly in Patents No. 528,856 dated November 6, 1894;"No; 53%,550, dated February 19, 1895; No. 581,954, dated May 4, 1897, and No. 601,498, dated March 29,1898; and the present invention as covered in this application has for its object the production of a complete type-setting machine which embodies the following principal movements over my patents aforesaid, to wit: (to) improved means whereby the type may be ejected sidewise and face outermost from the reservoir, but turned end for end or inverted in dropping from the reservoir to the carrier, so as to be delivered feet first to the composing-point; (1)) improved devices for composing the type and for justifying the type -lines by lineal compression; (0) improved mechanism for supplying compressible spaces to the composing mechanism as required; (d) novel lineindicating mechanism andnovel space-indicating mechanism whereby the operator can determine when snfficient type has been set to form a line and whether such line is suffilines, if desired.

ciently compressible; (e) novel mechanisiii for transferring the justified lines to the galley, and (f) improved means for leading the The invention embodies various othernov'el features and combinations of parts,which will be hereinafter fully explained.

, The invention is more concisely defined in the claims appended to this application.

In the accompanying drawings the improvements are illustrated as used in connection with a combined type setting and justifying machine of the Thorne type; but the invention is applicable to other forms of machines, and I do not limit myself to its use in connection with a cylindrical-type-reservoir machine such as is shown in the drawings.

Referring to said drawings, Figure 1 is a side elevation of the complete machine. Fig. 2 is an enlarged detail front elevation of the same, the upper portion of the apparatus being' broken away and the keyboard being removed. Fig. 3 is an enlarged detail front elevation, partly insection, of the composing portion of the apparatus, showing the spacefeeding mechanism. Fig. 4: is an end elevation of Fig.3, s'howin'gthe space-feeding mechanism. Fig. 5 is an enlarged sectional elevation of the keyboard and of the justifying- 8o mechanism-controlling devices. Fig. 6 is a detail view of the justifying actuating devices. Fig. 7 is 'a top plan View, partly in section, 0f the packing-cylinder and composing mechanism. Fig. 7 is a detail view of parts '7 and 8, Fig. 8 is a front elevation of Fig. '7. Fig. 9 is a top plan View of the justifyingand line transferring mechanisms, said figure forming a continuation of Fig. 7.

Figs. 10 and 1O are detail top views, and Fig. ll a detail sectional view, of the mechanism shown in Fig. 9. Fig. 12 is an enlarged end elevation of thejustifying mechanism. Fig.

13 is a sectional view of the justifying mechanisn1,show'ingthepacker-cylinderlock. Fig. 5 ltis a similar view of the packer-cylinderrotating devices.- Fig. 15 is a sectionalelevation of the justified line-holder and the lineplaner mechanisms. Fig. 16 is a vertical 1ongitudinal sectional view through the galleyhead. Fig. 17 is an interior viewof-the spaceindicator. Fig. 18 is a similar'view ofthe line-indicator. Fig. 19 is a transverse sectional view of the space andline indicator assembled in the case. Fig. 20is a detail sectional elevation of the type reservoir and ejecting mechanism. Fig. 21 is a front elevation thereof. Fig. 22 is a detail plan view illustrating the type ejecting and carrying mechanisms, and Fig. 23 is a detail illustrating the turning of a type. Fig. 24 is a detail sectional view of the line-advancing mechanism. Figs. 25 and 26 are enlarged sectional views of the space-feeding mechanism. 27 is a detail section of the space-feeding friction-cam, and Fig. 28 is a detail of the adj ustable worm.

The type reservoir and ejeczcrafiidesignates the type-reservoir, which is preferably a stationary upright cylinder provided with a series of vertical type-holding channels A, which are preferably cut at a tangent to the axis of the cylinder. A circular casting 100 is fixed below the reservoir 424, which may be supported thereon, said casting 100 being provided with aseries of slots A, one for each channel A of the reservoir; but casting 100 is so fixed relatively to the casting 4:24 that the slots A stand sufliciently to one side of the channels A to permit the lines of type in the channels A to rest on and be supported by the upper side of the casting 100, as indicated inFigs. 20 and 21; but the types can be ejected laterally from the channels A into the slots A by a sidewise lateral movement. The lower edge of casting 100 flares outwardly and downwardly, as shown, and the rear walls of slots A are similarly flared downwardly and outwardly, so that the types will not fall directly to the bottom of the slots, but will be directed outwardly and downwardly by reason of the curvature of the rear Wall thereof. These slots A are of the peculiar shape shown for the further purpose of assisting in turning the types end for end as they fail therethrough.

It will be observed that the types are placed in the channels A with their faces outward, and it is necessary that they should be delivered feet outward onto the carrier 101, which underlies the bottom of slots A. It is therefore necessary to turn the types end for end as. they pass through slots A, and this is accomplished by means of the catch-pins A and the curvature of slots A aided by the gravity of the type. These catch-pins A transfix the slots A a short distance below the channels A, so that as each type is ejected from the channel A its forward or face end will catch on the pin A and be detained thereby until the bottom or base of the type has swung around the pin, as indicated in Figs. 21, 22, and 23. These pins, therefore, by arresting the face ends of the types, cause them to turn end for end in passing through the slots A, so-thatthey descend feet outward onto the carrier 101, as indicated in Fig. 22. It will i be observed by reference to Fig. 21 that the type faceoutwardly in the channels A and Fig.

else their faces would be severely injured by blows and by composing them while resting on their faces; but by my improved construction I am enabled to put the type in the chan- 'nel face outermost and yet deliver them on the carrier feet outermost by causing them to turn completely over end for end in passing through the slots A. The pins and the rear walls of the slot are so relatively ar ranged that the face end of the type is upheld until the foot of the type has swung at least to a perpendicular under the pin, so that the type swings on the pins A through an arc of at least ninety degrees, and necessarily must do so in order to be properly presented onto the carrier 101. This carrier 101 rotates in the direction of the tangential inclination of the slots, and to facilitate the escape of the type from the slots A the mouth of each slot is widened and rounded on its exit side, as shown at A so that the type may begin to turn and move with the carrier 101 before it entirely leaves the slot, which facilitates the proper delivery of the type to and prevents its binding or turning upon the carrier 101. This carrier 101 consists of an annular metallic ring, which is journaled upon a bearing on the casting 100 just below the slots A and virtually forms the bottoms of the channels A. The carrier is provided with an annulargear 103, which may be formed on or secured to the carrier, as is most convenient, and the carrier and gear are supported on a fixed annulus 102, fastened to the under side of the casting 100, as shown. Gear 103 meshes with and is driven by a pinion 218 on a vertical shaft 219, which rises beside reservoir 424. The shaft 219 extends to the top of the machine, where it is driven by beveled gearing from a counter-shaft 428, which is provided with fast and loose beltpulleys 429, whose belt can be shifted by means of shifting-lever 110, the handle of which depends within easy reach of the operator, who can thereby readily stop and start the machine at will. The type are ejected sidewise from the channels A by means of pivoted pushers 193, which lie parallel with. the slots A and between the top of casting 100 and the bottom of reservoir'424. The top of casting 100 may be channeled for the accommodation of these pushers, and the inner end of each pusher is bifurcated and embraces a pin a on top of casting 100, by which the pusher is pivoted. The pushers are held in place and operated by the upper ends of hellcrank levers 192, which are pivoted at their bends toa plate 99, which is rigidly connected to and suspended from casting 100, as indicated in Figs. 20, 21, and 22. This plate 99 is provided with tangential slots 99, in which the above-described connections.

the levers 192 are pivoted. I The upper ends of the levers 192 are guided through openings A in casting 100, as shown, and their lower free ends are connected by springs a to pins a on ring 102, by which springs the levers and the pushers are retracted. The levers 192 are actuated so as to operate the pushers 193 by any suitable means and, as shown, the free end of each lever is connected by a wire a (which passes through an opening in the top of the stand 98 upon which the machine is mounted) to the short arm of a small bellcrank 184,pivotally attached to thelunder side of said stand, the longer arm of each cranklever 184 being connected by a wire a to the lower end of a pivoted lever 183, to the upper end of which is connected a sliding bar 182, that extends under the keyboard 181 of the apparatus and is provided with a notch b, adapted to be engaged with any one of the ribs 12' of a continuously-rotating cylinder 169. The forward end of slide 182 is thrown upward by the action of a spring 182, attached to its inner end and to the lower end of lever 183, as shown; but slide 182 can be depressed into engagement with a rib b by depressing the corresponding finger-key B, mounted on the keyboard 181. Each time notch 19 engages .a rib I) slide 182 will be pushed forward, thereby rocking said lever 183 and causing the ejection of atype through (See Figs. 5, 21, and 22.)

The ejected type are delivered onto the carrier 101 and carried thereon around the reservoir, being kept on the carrier by means of the guide-ring 104. This guide-ring is provided at one side with a deflecting-rib 104, which prevents any type being carried continuously around the ring, and the space between the outer side of rib 104 and the inner periphery of the ring forms a type-guide slot C by which the type are directed into the up per end of the vertically-disposed type-channel D, by which they are directed to the assembling or composing point.

That portion of channel D by which the direction of movement of the type is changed from horizontal to vertical preferably has its inner wall'formed by the periphery of a disk or wheel 587, which is mounted on a countershaft 588 and driven by bevel-gears 590 froma counter-shaft 591, which is driven by a gear 235, forming part of or attached to the friction-clutch of the space-feeding mechanism, hereinafter referred to. Wheel 587 also keeps channel D clean, carrying the dirt and dust out of the channel, and thereby preventing- I a fibrous shoe 121 The setter 124, by which the types are directed into the channel 2, is mounted on a shaft 125, which is journaled eccentrically in a rocking bearing 117, that is provided with an arm 116, connected by a rod 115 to a rocklever 118, which is operated by a pin 34 on the upper end of the push-bar 34, that operates the lock'12 of the packer-cylinder, hereinafter described. Bearing 117 will there-.

fore be rocked so as to withdraw the setter 124 from the channel 2 before the packercylinder is moved, and after the packer-cylinder is stopped simultaneously with the looking thereof by bolt 12 bearing 117 will be rocked, so as to return the setter 124 into position to push the types into the channels 2. The setter-shaft 125 is driven by means of bevel-gears 122 from a vertical shaft 111, which is journaled at its upper end in a yoke 113, hung upon shaft 125, and its lower end is .journaled in arock-nut 114, suitably journaled on the frame or a bracket attached thereto, and shaft 111 is driven by a pulley 112 and belt 112 from a pulley 110 on the vertical shaft 219. At the lower end of the channel D and just above the setter is pivoted a type-smoother 121, which will prevent the type being knocked out of the slot by their impact against the setter 124 and will pat down the type into the channel 2 and smooth or aline the type therein as they are pushed forward by the setter. The smoother 121 is pivoted over the type-channel in such position that each incoming type strikes the same and throws it up, so that it falls by gravity upon the type below, giving them a series of gentle taps, where by they are alined. This little device I have found very efficient in practice in preventing choking and jumping out of the type at the point where they are fed into the channels 2" by the setter. This device, furthermore, operates to automatically choke the throat of the channel and prevent the lighter letters from turning around. It is so pivoted that it opens up for the thicker letters and automatically adjusts itself in the throat. Preferably I face the lower weighted end of this smoother 121 with The packer-cylinder 2 is journaled on a shaft 136, fixed within a cylindrical casing 10, made fast to the frameof the machine at a pointjust below and to the left of the lower end of type-channel D, and to the outer (left) end of casing 10 is secured a casting 1. (See Figs. 2, 7, 8, and 12.) In each of the longitudinal peripheral channels 2 of this packercylinder 2- is a sliding follower 7, provided with a friction-spring 7 to retard its movement therein, said followers being slightly longer than the packer-cylinder 2.

Each follower 7 is adapted to be pushed out over casting 1 by the incoming type-line fed into its channel 2 by the setter 124. The followers 7 are also cut away on their outer edges, as shown at 7 leaving a projection7 on the rear end of the follower, which is ad apt- IIO ed to be engaged by a retractor-bar 8, for the purpose hereinafter explained. As soon as sufficient type have been fed into one channel 2 to form a line, the packer-cylinder 2 is shifted, so as to move the filled channel out of register with channel D and bring an empty channel into register therewith, the channels 2 being-filled successively, and the packer cylinder being rotated intermittently, so as to move the filled channels out of register with the channel D and successively into position to be acted upon by the line-compressing mechanism, which mode of operation is substantially the same as that described in my Patent No. 581,954 aforesaid. In the present case, however, instead of the line being moved directly into the galley from the packer-cylinder and justified in the galley it is first ejected from the rotary packer-cylinder into a line-holder 32, wherein the line is justified and from which it is eventually removed and transferred to the galley by a linetransferrer 81, as hereinafter described.

The packercylinder is moved intermittently by means of a pawl 39, which successively engages the slots 2 (see Fig. 14) through an opening 10 in the rear wall of casing 10. This pawl 39 is pressed inward by the spring 39 and is mounted upon a vertically-movable bar 33, which is forked over shaft 216 and is provided with a roller 33*,adapted to engage a peripheral cam 23 on shaft 216,as shown. The roller 33 is held against the cam by means of a spring 33", as indicated in the drawings.

After each movement of the packer-cylinder 2 it is locked during the setting of a new line by means of the bolt 12, (see Fig. 13,) which is secured in a holder 13, adj ustably secured under an opening in the bottom of the holder 10. Bolt 12 rests upon the short arm of a bell-crank lever 16, which is pivoted at its bend between lugs 34 on the upper end of a slide 34, the lower end of which is bifurcated to embrace shaft 216 and is provided with a roller 34,which engages a side race-cam 19 on shaft 216, as shown. The long arm of lever 16 is pressed outward by a spring 16, attaehed'to slide 34, but is limited in its outward movement by a hook 34 (see Fig. 13,) the construction being such that if for any reason the tooth of bolt 12 should not directly engage with one of the slots 2 of the packercylinder (as it must do in order to properly lock the latter) the spring 16 would yield, and thus prevent breakage of the parts.

Attached to the casting 1 is a sliding bar 486, which stands in line with the channel in which the types are being assembled, and this bar 486 is provided with an adjustable tappet 520, which depends into position to be struck by the end of the outcoming follower, which is ejected from the line by the incoming type. This bar 486 is connected bya trip-lever and catch 515 to a hammer 514, which is adapted to sound a gong and give an audible alarm when sufficient type have been assembled to make a line. The bar 486 is also connected to a visual line indicator, hereinafter described.

Slightly in advance of the bar 486 and in position not to interfere with the outcoming follower is a sliding follower, retract-0r, or pull-bar 8, the rear end of which is supported in a guide 6, attached to the end of casting 1, and the front end is guided in a slot 10 in the end of casting 10 and is supported therein by a pin 10, playing through a slot 8 in the end of the pull-bar 8. This end of the pullbar is provided with a do wnwardly-proj ecting lug 8, which is adapted to be engaged by the upwardly-projecting lug 7 of any follower 7 when the latter is pushed completely forward, so as to eject the composed line from the packer-cylinderand justify the same inholder 32. In order to justify the line, it is necessary that the follower 7 be pushed forward, so as to cause its inner end to project beyond the inner end of the packer-cylinder to insure that the type-line shall be fully removed from the packer cylinder and properly entered within the justifying holder 32. Consequently some means must be provided for withdrawing the follower back into the packer-cylinder,e1se it would look the packercylinder to the justifyingholder,which would cause a break; but by means of the pull-bar 8 (actuated by the justifier-head 11) each follower is fully retracted into the packer-cylinder before the latter is rotated.

Mounted so as to slide longitudinally on the casting 1 is a justifier head or block 1l,which is reeiprocated back and forth at the proper times by means of a lever 37, pivoted on the main frame and provided with a roller engaging a peripheral race in a. cam 22, mounted on a shaft 216, journaled in the main frame, and from which shaft the line justifying and transferring mechanisms are driven. This cam 22 is so timed as to move the head 11 forward each time a line is to be justified, and then quickly retracts the same into the position shown in Fig. 2. The head 11 is provided with a friction-roller 18, which is adapted to be engaged by the justifying-wedge 27, which works through a transverse groove 1 in casting 1 at right angles to the head 11. The wedge 27 is mounted on a yoke 26, (which embraces shaft 216, so as to be guided thereby.) This yoke is provided with a lateral ofiset rib 26, which is adapt-ed to be engaged by a roller 24 on a worm-gear 24, (keyed to a shaft 216,

IIS

beside cam 22, as shown.) This roller will arranged that it is released very quickly by the roller 24, and in order to prevent pounding or injury to the parts by the sudden descent of the wedge I preferably employ a cushioning device, as illustrated in Fig. 12,

to graduate the descent thereof. This wedgecushioning device consists of a lever 528, pivoted on a stationary support beside cam 22, and projecting upward beside the wedge 27. The upper end of the lever is slightly curved and stands in position to be engaged by the roller 27 on the wedge. The lever is provided with a roller 528, which engages a raised cam 22 on the periphery of cam 22, cam 22 being so arranged that lever, 528 will be caused to follow up the roller 27 as the wedge 27 rises, and will then gradually let the lever down after the wedge is released by pin 24 and bears upon lever 528, lever 52S permitting the wedge 27 to be gradually pushed down by the spring 28.

It will be observed from the foregoing description that the mechanisms for rotating and locking the packer-cylinder, for actuating the followers therein, and for actuating the j ustifying-head and the j ustifying-wedge are all much similar in principle and 'mode of operation to the devices shown in my Patent No. 581,954, but embody improvements upon the construction shown in the said patent. I do not therefore consider it necessary to enter herein into a more detailed explanation of the mode of operation of these mechanisms.

The casing 10 has an opening 10 in its upper side, whereby channels 2 of the rotary holder can be seen, and thus the operator can always see the line of type being composed, the line of type ready for correction, and the line of type ready to be just'ified.

Upon the completion of a line the line shifting and justifying mechanisms are set in motion and caused to perform a cycle of opera tions by setting in motion shaft 216, which is released and permitted to make one revolution by depressing the controlling-lever 196 beside the keyboard 133. This lever 196 is a bell-crank lever, and its shorter arm is connected by link 71 to an arm 67 on a rock-shaft 66, on which is another arm 67, connected by a link with a swinging bracket 64, in which is journaled the shaft 72 of a worm 72, which is, when the bracket 64 is elevated, to engage a worm 24 on shaft 216 and rotate the latter. The bracket 64 is hung upon a shaft 74, and on the end of the worm-shaft 72 adjoining shaft 7 4 is keyed a bevel-gear 7 3,which meshes with a small bevel 73 on shaft 74, and shaft 74 is driven by bevel-gears 74 and 74 from the vertical shaft 219, as shown, the lower end of shaft 219 being stepped in a bracket 77, as shown. The gear 73 will remain in engagement with 73, but permit the casting 64 and worm 72 to swing on the shaft 74. The worm 72 is normally held depressed out of engagement with gear 24 by its weight supplemented by a spring 66, operating on shaft 66, as shown in Fig. 5, but when raised into engagement with gear 24 is locked in its raised position until it has caused gear 24 and shaft 216 to make one complete revolution by the following automatic devices: The link 65 is provided with a lateral side pin or lug 65,

which projects beside a depending catch 70, hung from a bracket on the frame and pushed outward bya spring 70 This catch 70 is provided with a hook 70, adapted to catch under stud 65 when link 65 is elevated and uphold the latter, thus locking the worm 72 in mesh with the gear 24. As the shaft 219 is a continuously-driven shaft, the worm 72 rotates all the time and as soon as it is engaged withgear 24 immediately begins to rotate the latter and shaft 216 and actuate all the cams, 850., connected to said shaft. Attached to the inner face of worm-gear 24 is an adj ust able lock-throw-out plate 25, which carries a pin or roller 25, which just as the gear 24 and shaft 216 have about completed one revolution strikes the beveled lower end 70" of the latch-lever 70 and forces the latter outward, thereby releasing lug 65 from the catch 70, whereupon the worm 72 drops by gravity, aided by the spring 66, out of engagement with the gear 24, and the shaft 216 instantly stops until the worm 72 is again thrown into mesh with gear 24 by the depressionof lever 196.

On the inner end of shaft 74 is fixed apinion 74,which drives a larger pinion 175, having a belt-groove on its hub, by which power is transmitted by belt or cord 172 to a pulley 172 on the end of the rib-drum 169, by which the type-ejecting mechanism is actuated.

The justified-Zine holder.As above stated, the types are assembled in one channel 2 of the packing-cylinder 2, and the composed line is then moved out of the way by partly rotating the packer-cylinder to bring an empty channel 2 in position before the setter. At the next movement of the packercylinder such composed line is brought into register with a slot 30 in the circular end wall 30 of a casting 30, which is fastened onto the inner end of casing 10 and fits closely thereto, as shown. (See Figs. 1, 9, and 10.) At the side of wall 30 opposite the packer-cylinder is a movable line-shifting device orlineholder 32, having a single longitudinal channe132, which is adapted to register alternately with the slot 30 and with a slot 30 in the wall 3O in front of the slot 30. The composed lines are held by holder during the process of justification by lineal compression. The holder is formed of a plate 32, corresponding in length to the length of the justified line. The holder 32 is preferably removably attached to a slide 61, that is mounted in a bracket 31, which is supported on the casting 30, and is provided with j ournal-bearings for the end of a rock-shaft 62, that extends substantially parallel with the shaft 216 toward the right-hand end of the machine,

and on this rock-shaft 62, between the bifurcations of casting 31, is secured a toothed sector 54, which meshes with a toothed rack 61 on the under surface of plate 61, so that when shaft 62 is rocked plate 61 will be reciprocated. Adjusting-screws 31 and 31, tapped through lugs on casting 30, may be 

